DE4306846A1 - Method for the electrochemical treatment of contaminated soils and/or ground water - Google Patents

Abstract

The method according to the invention is distinguished by the contaminated soil being rinsed with an electrolytic fluid and the residual contamination being immobilised, the transport of the electrolytic fluid, of the pollutants and of the immobilising agent being effected under the influence of an electric field in the soil. To protect metallic useful objects in the soil, the potential of the objects to be protected is set to the protective potential by local arrangement and/or electrical connection with the sanitation electrodes. The method according to the invention avoids the drawbacks of the prior art, possible threats to metallic useful objects (structural components, reinforcements/armourings, pipelines, containers etc.) due to stray-current corrosion (electrocorrosion).

Description

The present invention relates to a method for electrochemical treatment of contaminated soils and / or groundwater.

In the past there are many different ver drive to remove contaminants from contaminated floors have been proposed. You can in biologi cal processes, physico-chemical processes, ver consolidation / stabilization and thermal processes kate be gorized.

In recent years in particular, electrical Trochemical processes for cleaning floors are becoming increasingly important won. DE-OS 39 31 017 describes a process and for cleaning contaminated earth masses direction to carry out the procedure. It is provided the contaminated earth masses with atomic To flow through hydrogen, which is highly reactive owns and all base metals and non-metals with reduced negative potential. The device for Implementation of the process consists of an electric lysis cell with a copper cathode and a nickel anode.

In DE-PS 33 30 838 a method for separation Formation of arsenic from sulfuric acid copper electrolytes described. This process is characterized u. a. there through out that arsenic deposition with current densities below one ver the formation of arsenic hydrogen avoiding limit current density is carried out.  

From DE-AS 26 49 553 is a method for elimination arsenic from arsenic and copper-containing electro lyten known, in which an electrolytic Ab separation of arsenic is carried out on the cathode, by a direct current and a through the electrolyte periodically reversing its polarity be sent so that the formation of arsenic water Substance gas on the cathode during the electrolytic Deposition is reduced.

Langenau, Pool and Seffinga describe in Altlastensa nation 90, Vol. 2, a method for removing Heavy metals and other contaminants from the Bo that and the groundwater. This electrical renovation is based on electrokinetic phenomena that occur when an electrical current by means of an or several electrode series is supplied. This ver Can drive both in situ (soils) and on off site (Dredged material, sewage sludge) are used.

Renaud describes 90, Vol. 2 in remediation electroosmotic cleaning process that for the in situ extraction of pollutants from hazardous waste ponia is suitable. Via porous electrodes that are in the contaminated soil are embedded, an elec trical constant field. The pollutant gets through an aqueous cleaning solution displaces that together on the pollutant with the help of electroosmosis the floor is moved.  

The above processes are technically complicated, complex and very expensive. In addition, they suffer Procedure all under the lack that in the ground before existing metallic objects with the created electrical field interact. On the one hand set electrically conductive objects effectiveness electrochemical cleaning locally (shielding mung, shunt, current shadow), on the other hand can the electric fields of the electrochemical soil harmful effects on metallic components in the Exercise soil (stray current corrosion) what use prohibits electrochemical floor cleaning.

The object of the invention is therefore to provide a method for electrochemical remediation of contaminated soils for To provide whichever quantity metallic objects in the floor maximum remedial effect of contaminated soils guaranteed and metallic useful objects not ge endangers.

Surprisingly, it was found that metallic Do not have any or less parts near the anode Corrosion are subject to nearby metallic parts the cathode, where particularly strong corrosion occurs occurs and that the corrosion products of the metallic Foreign bodies in the floor (e.g. iron oxides) and the cor corrosion products of the anodes of the rehabilitation facility (e.g. iron oxides or soluble iron compounds) a Immobilization or stabilization of soil contamination effects.  

The invention therefore relates to a method for electrochemical treatment of contaminated soils and / or groundwater, which is characterized in that the contaminated soil with an electrolytic Liquid rinsed and the remaining contamination immobilized is the transport of the electrolytic rivers liquid, pollutants and immobilization means under the influence of an electric field in the Soil takes place, whereby to protect metallic utility against the potential of the objects to be protected would stand in the ground stands by local arrangement and / or electrical Connection with the renovation electrodes on the protection potential is brought.

By the method according to the invention, the corrosion sion of metallic objects in electroche mixing soil / groundwater treatment prevented.

Particularly preferred embodiments of the inventions Process according to the invention are characterized in that

• - The electric field strength has a range of 1 up to 100 V / m,
• - The electrolytic liquid water, preferably increased conductivity by adding lye, acid or salt ability-demonstrating water is
• - the transport of the electrolytic liquid, the Pollutants and the immobilizer Electroosmosis and / or ionic conductivity and / or Electrophoresis is performed
• - The immobilization agent from corrosion products foreign metals in the soil or iron anodes consists,  
• - Iron ions used as immobilizing agent will,
• - the iron ions are generated anodically,
• - An electrode is placed in the contaminated mass, the mass is provided with an electrolytic liquid, that another electrode is immersed in the mass, and that a low-voltage direct voltage is applied between the electrodes, which leads to current densities of 1 to 10 A / m ² leads, one electrode being used as the cathode and the further electrode being used as the anode,
• - the current direction for a short time (reactivation of the elec trode arrangement) or long-term (reversal of the currents direction) is changed.

The invention also relates to the use of the The inventive method for electrochemical loading treatment of contaminated soils and / or groundwater.

In the method according to the invention, for. B. Iron-Io as corrosion products of foreign metals in the soil or the iron anodes and (e.g. anodically formed) Oxygen or oxygen-supplying compounds under the influence of the electric field in the soil in Rich tion transported cathode and form z. B. with arsenic Iron-arsenic compounds (iron (III) arsenate (V)).

This effect is exacerbated when the Fremdme Contact talle in the ground with the anodes or immediately  directly anodically polarized. On the This would lead to the dissolution of the metallic foreign matter body in the ground.

The immobilizing agent (iron ions) can be opened this way anodically (e.g. from anodically connected Generate scrap iron) economically and effectively.

The solution according to the invention of the immobilization of Pollutants from corrosion products from the electro chemical floor cleaning closes the possibility one, also other means of immobilization in the con transporting contaminated soil. Here is the electrochemical method much more effective than one purely hydraulic, because the former in contrast to the rei hydraulics also penetrate into narrower channels, which the Effect of the electrical phase boundary soil / electrolyte is attributable. In contrast, the Kanali effect in hydraulics to see where one there is a strong dependence on the capillary radius.

In addition, the groundwater can be selected supply the corresponding (inert) anode with oxygen (anodic oxygen evolution), e.g. B. for microbiological logical soil / groundwater purification or for opening oxidize mobile substances to poorly soluble substances like this in the case of trivalent to pentavalent arsenic for precipitation as iron (III) arsenate (V) is necessary.

By the method according to the invention parts of the well-known electrochemical floor cleaning procedure, a possible risk to metallic utility objects (components, reinforcements, pipes, loading containers etc.) due to electrical corrosion.  

These objects are known along the lines of corrosion protection on a cathodic pot tial against the ground. In addition, however measures are taken, on the one hand, the electrical do not affect the renovation, but on the other hand the not to protect metallic utility objects Make cathode for remediation. These measures consist of a corresponding potential current control, the Protection potential of the objects to be protected by Connection via a control to the cathode and / or is achieved by anodizing the surrounding soil.

To avoid or reduce polarization effects and to achieve a complete through flushing or soil reaction (stabilization) can Polarity (current direction) short-term or long-term change.

The system can also be powered from solar panels len done.

The invention is explained in more detail in a game Ausführungsbei with reference to FIGS. 1 to 3. Mean

Fig. 1 potential curve during operation of a floor cleaning elektroosmo tables and cathodic protection of pipelines,

Fig. 2 Measurement of electrochemical ground potential and equipotential lines calculated (mV with respect to the cathode),

Fig. 3 voltage gradient and electroosmotic flow from the anode to the cathode.

The example describes with reference to Fig. 1 the practical case of two pipes to be protected in the immediate vicinity of the electrochemical soil treatment.

By means of electrochemical measurements of the potentials in the soil area of the electrochemical soil treatment, e.g. B. with a zinc reference electrode against the cathode and / or by calculation from known or separately determined electrochemical variables (specific Bo den resistor, electrode arrangement and voltage or current), the potential profile in the ground (equipotential lines, Fig. 2) is determined.

In the upper part of FIG. 1, the potential profile between the two electrodes (center line) is shown. On the left in the upper part of the picture is the negative voltage funnel of the cathode shown in the lower part of the picture, on the right the corresponding positive voltage funnel of the anode.

The potential curve corresponds to that of the center line (Y = 0) in Fig. 2 (without pipes).

The one on the left (outside the redevelopment field) Pipeline runs through the voltage funnel of the Cathode. The floor carries negative in this area Excess charges, the pipeline is electrically posi tiv opposite the adjacent floor and as an anode at risk of stray current. It is by means of stray current extraction supply (e.g. by connecting via a control device with the cathode).  

The pipeline on the right runs through the tension funnel of the anode. The pipeline is opposite surrounding soil to the cathode and is thus by the Anode of electrochemical soil treatment at the same time protected cathodically. Through the electric field The soil treatment becomes the electrochemical soil potential raised near the anode (electrical positi ver), the electrochemical potential of the pipeline more negative compared to the potential of the surrounding Bo dens.

The electrochemical protection by the floor treatment Anode is supported if in anodic voltage funnel the required protection potential of the Rohrlei tion is not yet reached. The potential drop in the area of the anodic voltage funnel then an additional contribution through a power cut supply (via a control device) to the cathode.

The electroosmotic flow direction is gene rell because of the electrochemical positive charge transfer shot of the aqueous phase at the interface and negative charge of the solid surface from the anode (right in the picture) to the cathode (left in the picture).

Depending on the charging of the pipes is also outside the actual floor treatment area with a to calculate electroosmotic flow pressure, e.g. B. from the pipeline on the left to the cathode voltage funnel and from the anode voltage funnel (in the picture voltage gypsum fel) to the pipeline on the right.  

Basically, the electroosmotic flow in the voltage gradient runs from top to bottom ( Fig. 3). The electroosmotic flow is either supported or braked, compensated or overcompensated by hydraulic measures.

Should one of the two (or both) pipes chosen for the exemplary embodiment not be a protected object, but rather be brought to iron solutions for anodic dissolution, the circuit in FIG. 1 is to be changed so that the current supply from the anode leads to the foreign objects will, or the foreign objects immediately take over the function of the anode (exclusively or as a supplement to the soil treatment anode).

Claims (10)

1. A method for the electrochemical treatment of contaminated soils and / or groundwater, characterized in that the contaminated soil is rinsed with an electrolytic liquid and the rest of the contamination is immobilized, the transport of the electrolytic liquid, the pollutants and the immobilizing agent under the influence of an electrical Field takes place in the ground, with the potential of the objects to be protected being brought to the protective potential by means of local arrangement and / or electrical connection with the renovation electrodes to protect metallic useful objects in the ground. 2. The method according to claim 1, characterized in that that the electric field strength be 1 to 100 V / m wearing. 3. The method according to claim 1 or 2, characterized records that as an electrolytic liquid What ser, whose conductivity is preferably by addition of alkali, acid or salt is used becomes. 4. The method according to at least one of claims 1 to 3, characterized in that the transport the electrolytic liquid, the pollutants and the immobilizing agent by electroosmosis and / or ion conductivity and / or electrophoresis he follows.   5. The method according to at least one of claims 1 to 4, characterized in that the immobilization from corrosion products from Fremdme tallen in the ground or of iron anodes. 6. The method according to claim 5, characterized in that iron ions are used as the immobilizing agent be det. 7. The method according to claim 6, characterized in that the iron ions are generated anodically. 8. The method according to at least one of claims 1 to 7, characterized in that in the contami grounded electrode is placed on the Ver mass with an electrolytic liquid will see another electrode in the mass is immersed, and one between the electrodes Low voltage DC voltage is applied, with a Electrode as cathode and the further electrode as Anode is used. 9. The method according to at least one of claims 1 to 8, characterized in that the Stromrich device is changed at any time interval. 10. The method according to at least one of claims 1 to 9 contaminated for electrolytic treatment Soils and / or groundwater.